/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 1989 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ #pragma ident "%Z%%M% %I% %E% SMI" /* * University Copyright- Copyright (c) 1982, 1986, 1988 * The Regents of the University of California * All Rights Reserved * * University Acknowledgment- Portions of this document are derived from * software developed by the University of California, Berkeley, and its * contributors. */ #include #include #include "tdef.h" #ifdef NROFF #include "tw.h" #endif #include "ext.h" #ifdef EUC #include #include #include #define ISO646 "646" int multi_locale; int (*wdbdg)(wchar_t, wchar_t, int); wchar_t *(*wddlm)(wchar_t, wchar_t, int); int csi_width[4] = { 1, 1, 2, 3, }; #endif /* EUC */ /* * troff9.c * * misc functions */ tchar setz() { tchar i; if (!ismot(i = getch())) i |= ZBIT; return(i); } setline() { register tchar *i; tchar c; int length; int w, cnt, delim, rem, temp; tchar linebuf[NC]; if (ismot(c = getch())) return; delim = cbits(c); vflag = 0; dfact = EM; length = quant(atoi(), HOR); dfact = 1; if (!length) { eat(delim); return; } s0: if ((cbits(c = getch())) == delim) { ch = c; c = RULE | chbits; } else if (cbits(c) == FILLER) goto s0; w = width(c); i = linebuf; if (length < 0) { *i++ = makem(length); length = -length; } if (!(cnt = length / w)) { *i++ = makem(-(temp = ((w - length) / 2))); *i++ = c; *i++ = makem(-(w - length - temp)); goto s1; } if (rem = length % w) { if (cbits(c) == RULE || cbits(c) == UNDERLINE || cbits(c) == ROOTEN) *i++ = c | ZBIT; *i++ = makem(rem); } if (cnt) { *i++ = RPT; *i++ = cnt; *i++ = c; } s1: *i++ = 0; eat(delim); pushback(linebuf); } eat(c) register int c; { register i; while ((i = cbits(getch())) != c && (i != '\n')) ; return(i); } setov() { register j, k; tchar i, o[NOV]; int delim, w[NOV]; if (ismot(i = getch())) return; delim = cbits(i); for (k = 0; (k < NOV) && ((j = cbits(i = getch())) != delim) && (j != '\n'); k++) { o[k] = i; w[k] = width(i); } o[k] = w[k] = 0; if (o[0]) for (j = 1; j; ) { j = 0; for (k = 1; o[k] ; k++) { if (w[k-1] < w[k]) { j++; i = w[k]; w[k] = w[k-1]; w[k-1] = i; i = o[k]; o[k] = o[k-1]; o[k-1] = i; } } } else return; *pbp++ = makem(w[0] / 2); for (k = 0; o[k]; k++) ; while (k>0) { k--; *pbp++ = makem(-((w[k] + w[k+1]) / 2)); *pbp++ = o[k]; } } setbra() { register k; tchar i, *j, dwn; int cnt, delim; tchar brabuf[NC]; if (ismot(i = getch())) return; delim = cbits(i); j = brabuf + 1; cnt = 0; #ifdef NROFF dwn = (2 * t.Halfline) | MOT | VMOT; #endif #ifndef NROFF dwn = EM | MOT | VMOT; #endif while (((k = cbits(i = getch())) != delim) && (k != '\n') && (j <= (brabuf + NC - 4))) { *j++ = i | ZBIT; *j++ = dwn; cnt++; } if (--cnt < 0) return; else if (!cnt) { ch = *(j - 2); return; } *j = 0; #ifdef NROFF *--j = *brabuf = (cnt * t.Halfline) | MOT | NMOT | VMOT; #endif #ifndef NROFF *--j = *brabuf = (cnt * EM) / 2 | MOT | NMOT | VMOT; #endif *--j &= ~ZBIT; pushback(brabuf); } setvline() { register i; tchar c, rem, ver, neg; int cnt, delim, v; tchar vlbuf[NC]; register tchar *vlp; if (ismot(c = getch())) return; delim = cbits(c); dfact = lss; vflag++; i = quant(atoi(), VERT); dfact = 1; if (!i) { eat(delim); vflag = 0; return; } if ((cbits(c = getch())) == delim) { c = BOXRULE | chbits; /*default box rule*/ } else getch(); c |= ZBIT; neg = 0; if (i < 0) { i = -i; neg = NMOT; } #ifdef NROFF v = 2 * t.Halfline; #endif #ifndef NROFF v = EM; #endif cnt = i / v; rem = makem(i % v) | neg; ver = makem(v) | neg; vlp = vlbuf; if (!neg) *vlp++ = ver; if (absmot(rem) != 0) { *vlp++ = c; *vlp++ = rem; } while ((vlp < (vlbuf + NC - 3)) && cnt--) { *vlp++ = c; *vlp++ = ver; } *(vlp - 2) &= ~ZBIT; if (!neg) vlp--; *vlp++ = 0; pushback(vlbuf); vflag = 0; } #define NPAIR (NC/2-6) /* max pairs in spline, etc. */ setdraw() /* generate internal cookies for a drawing function */ { int i, j, k, dx[NPAIR], dy[NPAIR], delim, type; tchar c, drawbuf[NC]; /* input is \D'f dx dy dx dy ... c' (or at least it had better be) */ /* this does drawing function f with character c and the */ /* specified dx,dy pairs interpreted as appropriate */ /* pairs are deltas from last point, except for radii */ /* l dx dy: line from here by dx,dy */ /* c x: circle of diameter x, left side here */ /* e x y: ellipse of diameters x,y, left side here */ /* a dx1 dy1 dx2 dy2: ccw arc: ctr at dx1,dy1, then end at dx2,dy2 from there */ /* ~ dx1 dy1 dx2 dy2...: spline to dx1,dy1 to dx2,dy2 ... */ /* f dx dy ...: f is any other char: like spline */ if (ismot(c = getch())) return; delim = cbits(c); type = cbits(getch()); for (i = 0; i < NPAIR ; i++) { c = getch(); if (cbits(c) == delim) break; /* ought to pick up optional drawing character */ if (cbits(c) != ' ') ch = c; vflag = 0; dfact = EM; dx[i] = quant(atoi(), HOR); if (dx[i] > MAXMOT) dx[i] = MAXMOT; else if (dx[i] < -MAXMOT) dx[i] = -MAXMOT; if (cbits((c = getch())) == delim) { /* spacer */ dy[i++] = 0; break; } vflag = 1; dfact = lss; dy[i] = quant(atoi(), VERT); if (dy[i] > MAXMOT) dy[i] = MAXMOT; else if (dy[i] < -MAXMOT) dy[i] = -MAXMOT; } dfact = 1; vflag = 0; #ifndef NROFF drawbuf[0] = DRAWFCN | chbits | ZBIT; drawbuf[1] = type | chbits | ZBIT; drawbuf[2] = '.' | chbits | ZBIT; /* use default drawing character */ for (k = 0, j = 3; k < i; k++) { drawbuf[j++] = MOT | ((dx[k] >= 0) ? dx[k] : (NMOT | -dx[k])); drawbuf[j++] = MOT | VMOT | ((dy[k] >= 0) ? dy[k] : (NMOT | -dy[k])); } if (type == DRAWELLIPSE) { drawbuf[5] = drawbuf[4] | NMOT; /* so the net vertical is zero */ j = 6; } drawbuf[j++] = DRAWFCN | chbits | ZBIT; /* marks end for ptout */ drawbuf[j] = 0; pushback(drawbuf); #endif } casefc() { register i; tchar j; gchtab[fc] &= ~FCBIT; fc = IMP; padc = ' '; if (skip() || ismot(j = getch()) || (i = cbits(j)) == '\n') return; fc = i; gchtab[fc] |= FCBIT; if (skip() || ismot(ch) || (ch = cbits(ch)) == fc) return; padc = ch; } tchar setfield(x) int x; { register tchar ii, jj, *fp; register i, j; int length, ws, npad, temp, type; tchar **pp, *padptr[NPP]; tchar fbuf[FBUFSZ]; int savfc, savtc, savlc; tchar rchar; int savepos; if (x == tabch) rchar = tabc | chbits; else if (x == ldrch) rchar = dotc | chbits; temp = npad = ws = 0; savfc = fc; savtc = tabch; savlc = ldrch; tabch = ldrch = fc = IMP; savepos = numtab[HP].val; gchtab[tabch] &= ~TABBIT; gchtab[ldrch] &= ~LDRBIT; gchtab[fc] &= ~FCBIT; gchtab[IMP] |= TABBIT|LDRBIT|FCBIT; for (j = 0; ; j++) { if ((tabtab[j] & TABMASK) == 0) { if (x == savfc) errprint(gettext("zero field width.")); jj = 0; goto rtn; } if ((length = ((tabtab[j] & TABMASK) - numtab[HP].val)) > 0 ) break; } type = tabtab[j] & (~TABMASK); fp = fbuf; pp = padptr; if (x == savfc) { while (1) { j = cbits(ii = getch()); jj = width(ii); widthp = jj; numtab[HP].val += jj; if (j == padc) { npad++; *pp++ = fp; if (pp > (padptr + NPP - 1)) break; goto s1; } else if (j == savfc) break; else if (j == '\n') { temp = j; nlflg = 0; break; } ws += jj; s1: *fp++ = ii; if (fp > (fbuf + FBUFSZ - 3)) break; } if (!npad) { npad++; *pp++ = fp; *fp++ = 0; } *fp++ = temp; *fp++ = 0; temp = i = (j = length - ws) / npad; i = (i / HOR) * HOR; if ((j -= i * npad) < 0) j = -j; ii = makem(i); if (temp < 0) ii |= NMOT; for (; npad > 0; npad--) { *(*--pp) = ii; if (j) { j -= HOR; (*(*pp)) += HOR; } } pushback(fbuf); jj = 0; } else if (type == 0) { /*plain tab or leader*/ if ((j = width(rchar)) > 0) { int nchar = length / j; while (nchar-->0 && pbp < &pbbuf[NC-3]) { numtab[HP].val += j; widthp = j; *pbp++ = rchar; } length %= j; } if (length) jj = length | MOT; else jj = getch0(); } else { /*center tab*/ /*right tab*/ while (((j = cbits(ii = getch())) != savtc) && (j != '\n') && (j != savlc)) { jj = width(ii); ws += jj; numtab[HP].val += jj; widthp = jj; *fp++ = ii; if (fp > (fbuf + FBUFSZ - 3)) break; } *fp++ = ii; *fp++ = 0; if (type == RTAB) length -= ws; else length -= ws / 2; /*CTAB*/ pushback(fbuf); if ((j = width(rchar)) != 0 && length > 0) { int nchar = length / j; while (nchar-- > 0 && pbp < &pbbuf[NC-3]) *pbp++ = rchar; length %= j; } length = (length / HOR) * HOR; jj = makem(length); nlflg = 0; } rtn: gchtab[fc] &= ~FCBIT; gchtab[tabch] &= ~TABBIT; gchtab[ldrch] &= ~LDRBIT; fc = savfc; tabch = savtc; ldrch = savlc; gchtab[fc] |= FCBIT; gchtab[tabch] = TABBIT; gchtab[ldrch] |= LDRBIT; numtab[HP].val = savepos; return(jj); } #ifdef EUC #ifdef NROFF /* locale specific initialization */ int localize() { extern int wdbindf(); extern wchar_t *wddelim(); char *codeset; codeset = nl_langinfo(CODESET); if (MB_CUR_MAX > 1) multi_locale = 1; else { if (*codeset == '\0' || (strcmp(codeset, ISO646) == 0)) { /* * if codeset is an empty string * assumes this is C locale (7-bit) locale. * This happens in 2.5, 2.5.1, and 2.6 system * Or, if codeset is "646" * this is 7-bit locale. */ multi_locale = 0; } else { /* 8-bit locale */ multi_locale = 1; } } wdbdg = wdbindf; wddlm = wddelim; } #endif /* EUC */ #endif /* NROFF */